|Publication number||US4909756 A|
|Application number||US 07/239,078|
|Publication date||Mar 20, 1990|
|Filing date||Aug 31, 1988|
|Priority date||Jan 4, 1985|
|Publication number||07239078, 239078, US 4909756 A, US 4909756A, US-A-4909756, US4909756 A, US4909756A|
|Inventors||James E. Jervis|
|Original Assignee||Raychem Corp.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (7), Referenced by (84), Classifications (14), Legal Events (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application is a continuation, of application Ser. No. 016296, filed 2/19/87, now abandoned, which is a continuation of copending application USSN No. 794948 filed 11/1/85, which is a CIP of copending application USSN No. 688849 filed 1/4/85, now issued as U.S. Pat. No. 4,610,738.
1. Field of the Invention
The present invention relates to a splice case for encapsulating a substrate, especially splices between electrical conductors.
2. Description of the Prior Art
It is often desirable to protect substrates from environmental effects such as moisture, a typical example being the protection of a splice between first and second electrical conductors from either water or moisture in air. There are several known methods of protecting substrates, and in particular, electrical conductors, and more particularly, splices between electrical conductors. Such methods include the use of greases and gels surrounding the electrical conductors and the splices. A typical problem with greases is that they lack virtually any three-dimensional structure and hence no elongation and accordingly the greases oftentimes tend to flow from the area in which they are intended to environmentally protect, especially when subjected to external forces. Though gels, as more particularly described herein, have a three-dimensional network resulting in finite elongation properties which tends to maintain the gel in contact with the substrate being protected even when the gel is placed under an external load, oftentimes sufficient contact between the substrate being protected and the gel is not maintained over time due to dynamic changes which may occur. Such changes include changes in container sizes utilized to hold the gel due to material creep, changes in volume induced by temperature variations, etc. In addition, prior art methods of protecting substrates generally are not capable of adequately protecting a variety of different-sized substrates using a single apparatus.
Accordingly, it is an object of the present invention to provide means for protecting a substrate from the environment.
It is a further object of the invention to provide means for encapsulating a substrate, which means protects the substrate from the environment at all times, is easily re-enterable, and capable of accommodating any one of a variety of different-sized substrates.
These and other objects are achieved by the provision of a splice case for encapsulating a substrate, the splice case including first and second containers having a pre-cured gel therein, the gel in the first container having an exposed first surface which has a cross-sectional area greater than a cross-sectional area of an exposed second surface of the gel in the second container, the first and second containers thereby being sized so as to be capable of telescopic movement when the exposed surfaces of the gel are in contact with each other, and further including spring means for maintaining the first and second surfaces in contact and biased against one another, the spring means maintaining a biasing force regardless of dynamic changes such as deformation of the containers in response to the biasing force, expansions and contractions caused by temperature variations, etc. Accordingly, the first and second gel surfaces are maintained in contact by at least a predetermined minimum pressure, which pressure is calculated to always exceed a maximum expected water pressure which may be applied externally to the splice case or may be applied along a cable connected to the substrate being encapsulated so as to positively keep water and moisture from the substrate. A range of the telescopic movement is maintained sufficiently large so that a predetermined size range of substrates can adequately be encapsulated over an entire range of expected or anticipated dynamic variations. Preferably, the substrate comprises electrical conductors, the invention being especially suitable for encapsulating electrical conductors and splices therebetween, most especially telephone electrical conductors.
The invention further includes means for maintaining cables containing the electrical conductors in place in one of the containers, the maintaining means including a split bolt and nut assembly or a doubled-ended split bolt and nut assembly, and an organizer is further provided for organizing individual electrical conductors to facilitate their identification for splicing There may also be provided a terminal block for terminating the electrical conductors.
FIG. 1 is a perspective view of a preferred embodiment of a splice case of the invention illustrated in an open position;
FIG. 2 is a plan view of the splice case in a closed position.
FIG. 3 is an end view of a double-ended split bolt and nut assembly.
FIG. 4 is a plan view of the double-ended split bolt and nut assembly of FIG. 3.
FIG. 1 illustrates a preferred embodiment of a splice case of the invention. The splice case includes first and second mating containers 2, 4 interconnected by flexible hinge members 6 which allow relative movement between the containers. First and second springs 16, 18 are utilized to maintain the first and second containers in a closed position, as illustrated in FIG. 2, the first and second springs being fixedly attached to the second container 4 at points 46 and being releasably connectable to bosses 47 of the first container.
Each container 2, 4 contains a mass of gel 8, 10, the gel being of any of the types described in U.S. Pats. 4,600,261 and 4,634,207, both assigned to the assignee of the present application, and U.S. Ser. Nos. 507,433 filed June 23, 1983; and 507,435 filed June 23, 1983, the disclosures of which are incorporated herein by reference. Specifically, the gels 8, 10 have a cone penetration value from approximately 100 to 350 (10-1 mm), preferably between 240 and 330 and most preferably between 270 and 300; an ultimate elongation of at least approximately 200%; and a cohesive strength greater than an adhesive strength of an exposed surface of the gel to itself or a similar gel. The stated parameters for the cone penetration and elongation are provided in accordance with the American National Standard Designation ASTM D217 and ASTM D738, respectively. A viscous flow of the gel is such that it tends to conform around an outer surface of an object suppressed therein, and exerting pressure on the gel increases the degree and quality with which the gel conforms to the object.
The gel 8, 10 preferably has exposed first and second surfaces 12, 14 which are tacky and hydrolytically stable, though the surfaces 12, 14 do not necessarily need to be tacky. The gel is moisture insensitive and substantially inert towards the materials making up the containers 2, 4, as well as conductors 19, 23 and splices therebetween being encapsulated. The gel is further electrically insulating and has a volume resistivity of at least approximately 109 ohms/cm. Such gels can be formed from urethane compositions and silicone compositions as described in the applications cited above. The composition of the gel 8 can be identical to that of the gel 10 or the compositions of the gels 8, 10 can differ so as to optimize the respective properties of the gels so that one gel has a higher cone penetration than the other such that the conductors and splices will tend to be embedded preferentially within one gel over the other. Other variations in the properties between the gels can be optimized as desired.
When the splice case is in an open position as illustrated in FIG. 1, a cross-sectional area of the first surface 12 of the gel 8 in the container 2 exceeds a cross-sectional area of the second surface 14 of the gel 10 in the container 4. Accordingly, in a closed position of the splice case, generally illustrated in FIG. 2, where the container 4 is rotated about a center line 45 of the hinges 6 so that the surface 14 contacts the gel surface 12, side walls 3, 5 of the containers 2, 4 are capable of a finite amount of telescopic movement when subjected to the bias force of the springs 16, 18. A clearance 7 between the side walls 3, 5 is controlled when forming the containers 2, 4 so as to minimize and control an amount of gel tending to be forced outside the containers. In a preferred embodiment, an elasticity of the gels 8, 10 is determined, and all clearances 7 are sized so as to control the amount of gel tending to escape the containers, and in no case is the gel allowed to escape to such an extent that its maximum elongation is exceeded causing the gel to break, or that all of the finite telescopic movement is utilized.
The springs 16, 18 exert sufficient compression forces between the containers 2, 4 such that the exposed surfaces 12, 14 are maintained in pressure contact regardless of any external factors which may tend to otherwise relieve the pressure, such as (1) deformation of bottom or side surfaces of the containers 2, 4 caused by the pressure induced by material creep, (2) differential expansion and contraction of materials caused by temperature variations, etc. Preferably the springs are constructed so as to maintain a pressure between the surfaces which exceeds any anticipated water pressure to which the splice case or conductor cables 15, 25 may be exposed over the range of telescopic movement. An amount of the telescopic movement available between the containers 2, 4 and the dynamic range of the springs 16, 18 is chosen so that a variety of different-sized substrates can be encapsulated over an entire range of expected or anticipated variations caused by the external factors by using fixed-sized containers and springs, thus making the splice case extremely versatile. Accordingly, water is positively prevented from coming in contact with any contents of the splice case, such as splices embedded in the gel 8, 10. Furthermore, the spring pressure enhances conformance between the gel and the splices, the electrical conductors connected by the splices, and the cables from which the electrical conductors extend.
The splice case advantageously may further include a split bolt 24 and mating nut 26 capable of being interconnected via threads 28. The split bolt includes a pin extension 30, which fits in hole 32 and the container 4 for maintaining the bolt and cables 15, 25 in position relative to the container 4 in use. In addition, if desired, a conductor organizer 34 is attached to the container 4 via second flexible hinges 11, the organizer 34 including a plurality of organizer pins 36.
Openings 40 are sized and tailored so as to closely conform to a size of the cables 15, 25 being spliced so as to minimize escape of gel through the openings 40 the same way as an amount of gel escaping through the clearances 7 is minimized. A reservoir 38 has an exterior slot 42 through which the cables 15, 25 may extend from opposite sides of the splice case.
The operation of the splice case of the invention will be described by reference to encapsulating telephone cables having grounding shields 17 thereon and plurality of electrical conductors 19, 23 extending outwards from the cables. As schematically illustrated in FIG. 1, the first and second cables 15, 25 are inserted within a slot 21 of the split bolt 24, the cables extending out from the slot in opposite directions, and the nut 26 is threadably engaged with the split bolt via the threads 28 so as to tightly compress the cables 15 against each other thereby providing electrical contact between the grounding shields 17. The wire organizer is then folded over the exposed gel surface and the split bolt 24 is inserted in the gel 10 by inserting the pin extension 30 through the hole 32, fixing the splice into the case. The electrical conductors 19 of the first cable 15 are then organized by utilizing selective ones of the pins 36 of the wire conductor organizer 34, and likewise the electrical conductors 23 of the second cable 25 are organized with similar ones of the pins 36, and desired splices between the electrical conductors 19 and 23 are then made. Thereafter, the container 4 is rotated about the rotation line 45 of the hinges 6 so that the surface 14 contacts the gel surface 12 as generally illustrated in FIG. 2, and the containers 2, 4 are maintained in compressive contact via the springs 16, 18 by engagement with the bosses 47. Since the springs 16, 18 exert a "live" compressive force between the surfaces 12, 14 of the gel, and since this compressive force is preferentially maintained higher than any anticipated water pressure to which the splice case and cables will be subjected, the splices, electrical conductors 19, 23 and cables 15, 25 including their shields are protected against moisture and other environmental contaminants regardless of any creep or relaxation of materials making up the containers 2, 4, and changes induced by differential thermal contractions and expansions due to temperature changes of various material forming the splice case, etc., and a well insulated splice case results.
It has been found that the effectiveness of the gel may be enhanced by separating the cables 15, 25 and the conductors 19, 23. This may be accomplished in any of several ways. One way is to provide a double-end split bolt 50 and nuts 54 which together form a split bolt and nut assembly as illustrated in FIGS. 3 and 4. This split bolt and nut assembly is similar to the split bolt and nut assembly illustrated in FIG. 1 except now there are two slots instead of one. Thus, one or more cables is placed in each of the slots 52. As illustrated in FIGS. 3 and 4 there are only two cables; however, more than two cables are contemplated within the scope of the invention. When the nuts 54 are tightened down on the cables, electrical contact between the cables is maintained through section 56 of the split bolt.
As can be appreciated, now that the cables are separated, the gel can more easily surround each of the cables so as to avoid more effectively the formation of cavities which can act as conduits for water. Accordingly, environmental protection is assured.
The conductor organizer 34, mentioned previously, may also be used to provide separation of the electrical conductors. However, other means which supply the dual function of separating and organizing are also contemplated within the scope of the invention.
The splice case may also include a terminal block 60 as shown in FIG. 1 for terminating the electrical conductors. The terminal block 60 may include means 62 for displacing the insulation of the electrical conductors. By use of this terminal block, the electrical conductors are further separated for ease of penetration by the gel. Under certain conditions, it may be desirable to rotate the terminal block 90° so that it would be perpendicular, instead of parallel, to center line 45.
Each of the double-ended split bolt and nut assembly, organizer means and terminal block may be used separately in the splice case or in combination with each other. Further, while use of the spring means discussed above is clearly preferred, it is nevertheless contemplated within the scope of the invention that the spring means may be omitted on occasion.
Though the invention has been described by reference to a preferred embodiment wherein splices are encapsulated, it should readily be appreciated that the invention is usable in any environment where any material or substrate is to be encapsulated and protected from the environment, and is not limited solely to encapsulating splices or splices between wires held in cables having shielding conductors therearound, and accordingly all such variations of the invention are included within the scope thereof.
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|U.S. Classification||439/521, 174/76|
|International Classification||H02G15/117, H01R13/52, H02G15/10, G02B6/44|
|Cooperative Classification||G02B6/4447, H02G15/10, H02G15/117, H01R13/5216|
|European Classification||G02B6/44C8A2K2, H01R13/52M, H02G15/117, H02G15/10|
|Mar 20, 1989||AS||Assignment|
Owner name: RAYCHEM CORPORATION, A CORP. OF CA
Free format text: MERGER;ASSIGNORS:RAYCHEM CORPORATION, A CORP. OF CA (MERGED INTO);MEHCYAR CORPORATION, A DE CORP. (CHANGED TO);REEL/FRAME:005175/0324;SIGNING DATES FROM 19870129 TO 19870729
|Jul 30, 1991||DC||Disclaimer filed|
Effective date: 19910821
|Sep 7, 1993||FPAY||Fee payment|
Year of fee payment: 4
|Sep 8, 1997||FPAY||Fee payment|
Year of fee payment: 8
|Oct 9, 2001||REMI||Maintenance fee reminder mailed|
|Mar 20, 2002||LAPS||Lapse for failure to pay maintenance fees|
|May 14, 2002||FP||Expired due to failure to pay maintenance fee|
Effective date: 20020320